Fixing device for a rigid transverse connection device between rods of a spinal osteosynthesis system

ABSTRACT

The body (4) of the hook (1) has a passage (6) for receiving a transverse bar, which passage terminates in an aperture (7) and extends throughout the length of the body. The hook (1) includes a curved strip portion (5) for retaining an osteosynthesis rod which is connected to the body (4) in a region of said aperture (7). The height of the aperture (7) exceeds the thickness of the bar. The strip portion (5) has a width substantially equal to the width of the body (4) and edge portions (9) of the passage (6) are so shaped as to define sliding ramps for the rod which are inclined toward the interior of the strip portion (5). The arrangement of the hook ensures a trapping of the rod which improves the safety of the device in use and reduces the overall size of the hook.

The present invention relates to a fixing device for a transverseconnection device for ensuring a rigid connection between two rods of aspinal osteosynthesis system, by cooperation with a rigid transverse barand a clamping of a rod against the bar.

It is known that spinal osteosynthesis instrumentation devices areusually constituted by two rods fixed to the vertebral column by hooksor screws and interconnected by transverse bars which impart to theassembly a general frame arrangement. This must have sufficientmechanical resistance to permanently afford the desired support to thevertebral column of the patient.

French patent 2 645 427 filed under No. 89 04 750 discloses a transversebar whose two end portions are curved toward each other so as to formhooks for receiving the rods. However, this very simple arrangement hasnot given the expected results, in particular owing to the lack ofpossibility to act on the rods themselves by moving them away from ortoward each other. Indeed, this has required the provision of asufficient number of standard transverse bars in which the distancesbetween the axes of the curved ends forming the hooks are different. Butthis does not solve the problem of the intermediate dimensions for whichthis device cannot be used.

French patent 2 659 225 filed under No. 90 02 970 discloses a transverseconnection device comprising a bar having a rectangular sectionstraddled by independent hooks. Each hook has a body and two stripportions spaced apart by a gap whose width corresponds to that of thebar, each strip portion being consequently placed on each side of thebar when the hook straddles the latter. But, in order to obtain asufficient mechanical resistance, each strip portion must have a certainwidth. The width of the strip portions added to that of the gap for thepassage of the bar results in an overall size which cannot be reduced.

Now, one of the constant concerns of surgeons in the field of spinalosteosynthesis is the reduction in the overall size of the partsemployed with no reduction in their mechanical resistance. Indeed, evena small reduction in the overall size, i.e. measured in millimetres oreven fractions of a millimetre is of obvious interest.

An object of the invention is therefore to provide a fixing hook whichhas a reduced overall size relative to that of known hooks and yetretains excellent mechanical properties and moreover provides excellentsafety as concerns the fixing of the rod against risk of the connectioncoming apart.

According to the invention, a passage for receiving the bar is providedlongitudinally in the body of the hook. This passage has a height whichis at least equal to the thickness of the bar, extends throughout thelength of the body and freely opens out at both ends. This is why theend of the body of the hook connected to its strip portion has anaperture which is located in the extension of the passage receiving thetransverse bar and has a height which exceeds the thickness of said bar.

Further, the passage aperture for the bar allows the latter a freedom ofangular movement which facilitates the mounting of the device (which itmust be recalled is carried out under the circumstances of a delicatesurgical operation) and therefore permits adjusting its orientationand/or its position with more precision.

In the hook disclosed in the patent 2 659 225, the recesses enabling thehook to be taken hold of by the accessory are provided at the oppositeends of the body of the hook, in the direction of the bar, so that theyare necessarily located above the latter and consequently increase theoverall height of the hook. In a possible embodiment of the hookaccording to the invention, these recesses are provided on the lateralfaces of the bar, substantially in the region of the surface of thelatter. Consequently, there is a substantial reduction in the overallheight of the body of the hook approximately equal to the width of therecesses, namely on the order of a millimetre.

According to another feature of the invention, the body of the hook isextended by an inwardly curved strip portion for retaining and clampingthe associated rod, said aperture being formed in a region of connectionof the body to the strip portion, and the latter has a widthsubstantially equal to the width of the body of the hook.

According to another feature of the invention, the edge portions of thepassage of the hook body are so shaped as to define sliding ramps forthe rod which are inclined toward the interior of the strip portion soas to facilitate placing the rod in the curved part of the stripportion, the inclination of these ramps relative to the transverse barbeing at a few degrees.

In a particularly advantageous embodiment of the hook, the tapped holeand the clamping screw are positioned in the body of the hook in suchmanner that the axis of the screw is located between an axial plane ofthe rod parallel to the axis of the screw and a plane tangent to thesurface of the rod located in the open part of the hook, parallel to theaxis of the screw and to said axial plane, this axis of the screw beingfor example located at about two-thirds of the distance between said twoparallel planes measured from said axial plane.

Further features and advantages of the invention will be apparent fromthe following description, with reference to the accompanying drawingswhich illustrate various embodiments of the invention given by way ofnon-limitative examples.

In the drawings:

FIG. 1 is a perspective view, to a large scale, of a first embodiment ofthe fixing hook for the transverse fixing device according to theinvention.

FIG. 2 is a side elevational view, to a large scale, of the hook shownin FIG. 1 in which the spinal osteosynthesis rod is inserted.

FIG. 3A is a sectional view of the hook shown in FIG. 2 and anelevational view of a transverse bar assembled with this hook and withan osteosynthesis rod, before clamping by means of a clamping screwinserted in the hook.

FIG. 3B is a view similar to FIG. 3A after the bar has been clampedagainst the rod by means of the screw of the hook.

FIG. 4 is a top plan view of the hook shown in FIGS. 1 to 3B.

FIG. 5 is a perspective view of a transverse connection devicecomprising two hooks according to a second embodiment of the invention,a bar and two rods, mounted on a spinal segment in which the two rodsare spread apart.

FIG. 6 is a perspective view, to a large scale, of a hook according to asecond embodiment of the invention, on which the associated rod andtransverse bar are mounted.

FIG. 7 is a perspective view of the accessory for handling the hookshown in FIG. 6.

FIGS. 8, 9 and 10 are side elevational views of three possiblealternative embodiments of the hook shown in FIG. 6.

FIGS. 11, 12 and 13 are perspective views of three other embodiments ofthe transverse connection bar of the device according to the invention.

FIG. 14 is a perspective view of a further embodiment of the transversebar of the assembly according to the present invention.

FIG. 15 is a perspective view of the assembly of an osteosynthesis rodand a vertebral anchorage member connected by means of a transverse baraccording to FIG. 6.

The fixing hook 1 shown in the drawings is a part of a rigid transverseconnection device interconnecting two rods 2 of a spinal osteosynthesissystem (FIG. 5), by cooperation with a rigid transverse bar 3 and aclamping of a rod 2, associated with each hook 1, against the bar 3. Thelatter has an adapted section, for example a rectangular or a circularsection, which is constant throughout its length in the presentlydescribed embodiment.

Each of the two hooks 1, which may be part of the transverse connectiondevice shown in FIG. 5, comprises a body 4 and a single strip portion orlug 5 which is curved inwardly in the direction toward the body 4 withwhich it is in one piece. Provided in the body 4 is a passage 6 forreceiving the bar 3, this passage having a height h which is at leastequal to the effective thickness of the bar 3.

The passage 6 opens out at the ends of the body 4 and, on the side ofthe body 4 extended by the curved strip portion 5, terminates in anaperture 7 whose height H exceeds the thickness of the bar 3. In theillustrated embodiment, the height H is about twice the thickness of thebar 3. This numerical indication is not intended to be limitative.

Edge portions 9 constituting walls of the body 4 defining the passage 6are each so shaped as to define a rectilinear sliding ramp 11 for theassociated rod 2, are inclined toward the interior of the strip portion5 and are connected to a first concave region 12 of the strip portion.Each ramp 11 has a suitable inclination relative to the rectilinearbottom of the passage 6, i.e. to the transverse bar 3 when the latter isapplied against the bottom of the passage 6. Consequently, the passage 6has a depth which increases from h to H, i.e. from the end thereofremote from the strip portion 5 to the aperture 7.

The curved region 12 has a radius of curvature r1 (FIG. 3) which isequal, or substantially equal, to the radius of the cylindrical rod 2(which may have asperities or knurling as shown in FIG. 5 or be smooth),and this region 12 is followed, in the direction toward the rounded freeend portion 5a of the strip portion 5, by a second curved region 13which rises toward the body 4. This concave region 13 has, in theembodiment shown in FIGS. 2 and 3, a radius of curvature r2 which issubstantially equal to the radius of curvature r1, but its centre ofcurvature 0₂ is slightly offset from the centre of curvature 0₁ of theregion 12 toward the interior of the hook 1. Thus the region 13 and thefree end portion 5a are slightly raised in the direction toward the body4 relative to a single curvature whose radius would be equal to r1. Itis understood that in the specific illustrated embodiment the rod 2 isreceived in the region 12. The present invention also contemplates anon-circular rod 2, or even the rectangular bar 3 being engaged withinthe region 12, with the region being linear or flat rather than curved.

Recesses 8 for the handling of the hook 1 by an accessory (known per seand not shown), are provided on the lateral faces of the body 4 whichare parallel to each other. These recesses or grooves 8 have a concavityin the transverse direction, i.e. toward the interior of the walls ofthe body 4, the radius of curvature of these two concavities beingidentical to that of the convexity of the corresponding impressionprovided on the end portions of the holding accessory.

The recesses 8 are oblique with respect to the upper face of the body 4of the hook so as to clear the space required for the tool screwing thescrew 14.

The radius of curvature r2 may be substantially smaller than r1, inwhich case it centre of curvature may coincide with 0₁. It is alsopossible to replace the concave region 13 by a planar surface inclinedat a suitable angle, or arrange this inclined planar surface at the endof the region 13, between the latter and the rounded end portion 5a.Such an inclined planar surface may have a width of 2 to 3 mm so as toconstrain the rod 2 to slide at the bottom of the groove defined by thestrip portion 5.

The hook 1 is provided with a screw 14 for clamping the bar 3 of the rod2, this screw 14 being inserted in a tapped hole 15 provided in a wallof the body 4 interconnecting its two lateral walls 9 and opening ontothe passage 6. The tapped hole 15 is so positioned that is axis X--X isclose to the free end portion 5a of the strip portion 5, i.e. to a planetangent to the latter (FIG. 3A). The screw 14 may be for example a screwhaving a hexagonal head or constituted by a portion of a cylinder in theinner wall of which are formed impressions 16 (FIG. 1) adapted to becooperative with a corresponding screwing tool (known per se and notshown).

Provided in the curved part of the body connecting the aperture 7 to thetapped hole 15 between the clamping screw 14 and the aperture 7, is asecond tapped hole 22 whose diameter is less than or equal to that ofthe tapped hole 15. The tapped hole 22 is adapted to receive acorresponding screw threaded end portion of an accessory 24 (FIG. 7)consisting of a rod whose end portion remote from the terminal portion23 constitutes a preferably knurled hand grip 25. After the screwthreaded portion 23 has been screwed in the tapped hole 22, theaccessory 24 is firmly fixed to the hook 20.

The recesses 8 afford the surgeon a second manner of taking hold of thehook 20, by means of a kook-carrying forceps (of known type and notshown). It will be observed that the provision of the tapped hole 22 ina sufficient thickness of the body 4.3 is made possible by theinclination, relative to the planar surface 10 of the body 4.3, of thewall 6a of the passage 6 (which feature also exists in the hooks 20.1and 20.2 shown in the FIGS. 8 and 9).

The hook 1, the bar 3 and the rod 2 are assembled in the followingmanner.

The surgeon mounts a hook 1 on the transverse bar 3 (having arectangular or square section corresponding to the section of thepassage 6), then passes this hook under one of the rods 2 (FIG. 3A). Thebar 3 is flush with the lower end of the body 4, i.e. the end of eachramp 11. Consequently, the bar 3 does not reduce the width of the gap dfor inserting the rod 2 between the ramps 11 and the free end portion 5aof the strip portion 5. The hook 1 is so dimensioned that the width d ofthis gap is at least substantially greater than the total diameter of anosteosynthesis rod 2 having asperities of the type known under the name"Cotrel rod" (registered trademark). As already mentioned, this rod mayof course have a smooth surface.

The surgeon slides the rod 2 on the guide ramps 11 which bring this rodto a position of contact with the first concave region 12 (FIG. 3A). Asthe rod 2 continues its travel, it then comes to bear against the secondconcave region 13 (FIG. 3B). The surgeon screws the screw 14 in thetapped hole 15. The bearing of the screw 14 against one of the faces ofthe bar 3 then causes the hook 1 to tilt about the rod 2, as shown inFIG. 3B. This tilting is made possible by the dimensions of the endaperture 7 of the passage 6. Subsequent to the tightening of the screw14, the rod 2 is clamped between the raised free end portion 5a of thestrip portion 5 and the bar 3. The dimensions of the hook 1, bar 3 androd is such that, when the three elements are assembled, the distance fbetween the free end portion 5a and the bar 3 is less than the diameterof the rod 2.

The whole of the transverse connection device between two osteosynthesisrods 2 is as shown in FIG. 5 after the mounting of two hooks (hooks 20,described hereinafter with reference to FIGS. 6 and 10, are shown inFIG. 5) on two rods 2 and a transverse bar 3. Note that the hooks shownin the spread apart position in FIG. 5 may also be placed in a positionin which they are closer together in which their strip portions areoriented toward each other.

The tightening of the screw 14 causes the bar 3 to be lowered relativeto the passage 6 to a projecting position relative to the edge portions11, and also causes the hook 1 to tilt on the bar 3.

Thus, when the hook 1 is not mounted on the bar 3, or not clamped on thelatter, the useful height d for inserting the rod 2 in the hook 1exceeds the diameter of this rod. After the bar 3 has been inserted inthe hook 1 and clamped on the rod 2, the height d is brought back to thevalue f which is less than the diameter of the rod 2.

It will be understood that the arrangement of the hook 1 thus permitstrapping the rod 2 between the strip portion 5 and the bar 3 so thatthere is practically no risk of ejection of the rod due to movements ofthe patient, and resulting in an increased safety in the use of thedevice.

The hook according to the invention also has the following advantages:

The presence of the aperture 7 in the region of the connection betweenthe body 4 and the strip portion 5 allows the bar 3 to move angularly,which facilitates the full mounting of the device for placing the secondhook 1 in an operational region whose access is difficult andencumbered. This aperture 7 also enables the transverse bar 3 to descendunder the clamping action exerted by the screw 14 so that the bar comesinto contact with the rod 2. The bar 3 then traps the rod 2 in the spacedefined by the curved portion formed by the strip portion 5, by reducingthe height of insertion defined by the body 4 of the hook and the freeend portion 5a (d shown in FIG. 3A) to a dimension (f shown in FIG. 3B)which is less than the diameter of the rod 2. It will be understood thatthis advantage is obtained on condition that the diameter of the rod islarger than the distance between the bottom of the strip portion of thehook and the lower edge of the aperture, and that a screw 14 ofsufficient length is used.

The fact that the hook 1 has a single curved strip portion 5 instead oftwo strip portions astride the transverse bar as in said patent 2 659225, and that this strip portion has a width 1 equal to that of the body4, imparts great mechanical resistance to the strip.

In addition to affording a connection of excellent quality, the hookaccording to the invention permits the realization of a transverseconnection device which is very easy to mount, with a reduction in theoverall size of the hook relative to prior hooks and in particular thatdisclosed in said patent 2 659 225, without reducing the mechanicalresistance. As already mentioned, this reduction in the overall heightis achieved by the combination of the suitably dimensioned passage 6 andthe positioning on the lateral faces of the body 4 of the recesses orimpressions 8 allowing the accessory to take hold of the hook. In thetransverse direction, the width of the hook 1 is correspondingly reducedowing to the fact that the two strip portions of said patent 2 659 225have been replaced by a single strip portion.

Thus, the connection obtained between the transverse device and thehooks 1 is considerably improved relative to the known transversedevices, in respect of the following points which were heretoforedifficult to conciliate: facility of mounting, mechanical quality of theconnection, mechanical resistance, safety and reliability, and reductionin the overall size. This reduction in the dimensions of the hook may befor example, in width, around 2 mm, and, in height, around 1 mm relativeto the hook disclosed in said patent 2 659 225.

The disposition of the recesses or impressions 8 permits aself-centering of the impressions of the accessory and this considerablyfacilitates the holding of the hook 1 by the accessory owing to theexcellent quality of the connection. It should also be mentioned thatthe lateral arrangement of the holding recesses or grooves 8 which thenextend in a direction perpendicular to the axis of the rod 2, preventsany untimely rotation of the hook 1 on itself when mounting. Thisarrangement therefore contributes to a satisfactory mounting of thehook.

The connection achieved by means of the hook according to the inventionis universal in that it can be used on a rod 1 of variable diameterwithin the limit of the opening of the hook and of the distance betweenthe bottom of the strip portion and the lower edge of the aperture,which is a very important point. If the rod 2 moreover has a smoothsurface instead of the type having asperities (Cotrel rod, screwthreaded rod, etc.), the mechanical quality of the connection and thetrapping of the osteosynthesis rod 2 obtained by means of the inventionremain sufficient whatever the type of rod (smooth rod, or rod havingasperities: Cotrel rod or screw threaded rod).

In the previously-mentioned alternative embodiment in which the free endportion of the strip portion 5 of the hook 1 defines an inclined planarsurface, the latter cooperates with the clamping screw 14 of which thethrust causes a sliding of the rod 2 on this inclined surface to thebottom of the groove of the hook. This thrust is transmitted to the partof the bar 3 opposite the free end portion 5a so that this part of thebar 3 maintains the osteosynthesis rod 2 firmly trapped in the hook. Thethrust transmitted to the rod 2 is indeed so directed that the rodsafely positions itself on the concave region 13.

The manner in which the hook 20 is taken hold of by the accessory 24 canfacilitate the handling when the overall size of the forceps which holdthe hook by means of the grooves is excessive.

The accessory 24 is firmly fixed to the hook 20 by the screw threadedconnection of the end portion 23, which facilitates the handling of thehook when it is mounted by the surgeon on the rods.

In the alternative embodiment of the hook 20.1 shown in FIG. 8, thestrip portion 5.1 has a free end portion defining a surface facingtoward the ramp 11 which is an inclined planar surface constituting aramp 26, limited toward the interior of the hook by a transverse edge27. The curved surface 28 leading from this edge 27 is limited on theopposite side by a second edge 29 extending along a transversegeneratrix. Consequently, a rod 31 of sufficient diameter can only besupported on the two parallel edges 27, 29, in which position it isclamped by the clamping screw 14. On the other hand, a rod 32 of smallerdiameter corresponding to the curvature of the surface 28, can becompletely applied against the latter in consequently filling the emptyspace 33 defined between the surface 28 and the rod 31. The illustratedrods 31 and 32 are smooth but of course may have asperities on thesurface.

The profile of the strip portion 5.1 has the advantage of facilitatingthe correct positioning in a substantially automatic manner of the rodin the hook 20.1 during some surgical operations when specialdifficulties of the positioning of the rod are encountered.

The profile of the support surface 28 may also be of interest if it isdesired to standardize the design of the hook for different roddiameters.

In the alternative embodiment shown in FIG. 9, the free end portion ofthe strip portion 5.2 of the hook 20.2 defines a first transverseinclined ramp 34 followed by a second longer ramp 35 having a smallerinclination than the ramp 34 and connected to the circular surface 36which is connected on the opposite side to a third planar ramp 37connected through a connection region to the ramp 11. This profile ofthe strip portion 5.2 is also adapted to receive rods 31, 32 . . . ofdifferent diameters, the positioning of which is facilitated by thesuccession of inclined planar surfaces 34 and 35. It will be understoodthat the positioning of the planes P1, P2 and of the axis X--X referredto with reference to FIG. 10, is also valid for all the other describedand illustrated embodiments.

In an alternative embodiment, ramps such as 26, 34, 35, 41 can beprovided on the free end portions of the hook 1 shown in FIGS. 1 to 4.

As shown in FIG. 10, the tapped hole 15 and the clamping screw 14 are sopositioned in the body of the hook that the axis X--X of the screw islocated between an axial plane P1 of the rod 31 (or 2 . . . )parallel tothe axis X--X and a plane P2 tangent to the part of the surface of therod 31 (2 . . . ) located in the opening of the hook 20. The tangentplane P2 is parallel to the axis X--X of the screw and to the axialplane P1. Advantageously, the axis X--X is located at about two-thirdsof the distance between the two planes P1 and P2 as measured from theaxial plane P1.

The strip portion 5.3 of the hook 20 shown in FIG. 10 has a ribbed innersurface 38 constituted by a succession of transverse and parallelserrations 39. This serrated surface 38 is connected to a planar ramp 41forming the inner surface of the free end portion of the hook 5.3.Further, as an alternative arrangement, the tapped hole 22 may receivean additional clamping screw 42 for clamping the transverse bar in thehook and on the rod, after unscrewing the screw threaded portion 23 ofthe accessory 24.

Likewise, the tapped hole 15 may be arranged in the same way as thetapped hole 22 and receive a clamping screw identical to the screw 42.(FIG. 10).

FIG. 10 shows a smooth rod 31 placed in the hook 20, but it will beunderstood that this rod may be advantageously replaced by a rod 2having asperities (FIGS. 5 and 6), the connection then being renderedmore firm.

The following points should be noted:

In the various described embodiments, the rod is easily engaged in thestrip portion of the hook until it reaches the bottom thereof. Thepresence of terminal access ramps such as 26, 34, 35, 41 on the free endportion of the strip portion of the hook, the inclination of which isoriented toward the interior of the strip portion, markedly facilitatesplacing the rod 2, 31 . . . in position. The rod is then subjected tothe radial pressure exerted by the transverse bar 3 upon the tighteningof the screw 14. The bar 3 under the effect of the clamping forceexerted by the screw 14 urges the rod into the hollow portion of thestrip portion 5, 5.1 . . . , so that the rod 2, 31 . . . isautomatically correctly positioned in the hook.

The effectiveness of the connection between the component parts of thedevice is also ensured by the positioning of the clamping screw 14 inthe end portion of the body 4, 4.1, 4.2, 4.3 of the hook. The axis X--Xof the screw 14 is indeed located, in accordance with the diameter ofthe rod employed, more or less close to the tangent plane P2. Thus, theclamping action of the screw 14 on the hook, and therefore on the stripportion 5, 5.1 . . . , exerts forces which tend to slightly pivot thehook and its strip portion about the rod, and to maintain the latterwithin the strip portion 5, 5.1 . . . . These forces create slightirreversible deformations on the transverse bar 3 and on the rod 2, 31,32 . . . which ensure the perenniality of the connection and guaranteeits correct performance over a period of time.

Another important advantage of the various embodiments described residesin the solidity of the connection achieved between the rod and the hook,owing to the closure of the strip portion of the hook onto the rod aftera complete assembly of the device. Indeed, when the transverseconnection device is placed in position, the distance f between thelower face of the transverse bar 3 and the free end portion of the stripportion 5 or 5.1, 5.2, 5.3 . . . is less than the diameter of the rod 2,31, 32 . . . , irrespective of the diameter of this rod. Consequently,if the rod can easily enter the hook, it cannot leave it after clampingwith the screw 14, which guarantees safety in use of the device.

This safety is still further increased by the use of a rod havingasperities, such as the rod 2, since upon the clamping and under theeffect of the forces exerted on the asperities by the hook, theypenetrate the metal of the bar 3 and remain clamped therein to preventrotation and translation.

FIGS. 11 to 13 show three possible alternative embodiments of thetransverse connection bar 3.

In FIG. 11, the bar 45 terminates at one end in an enlarged portion 46which performs the function of a stop for one of the hooks. In FIG. 12,the bar 47 has one of its ends in the form of a hook 48 provided with anaperture 49 for receiving a screw such as the screw 14; the hook 48 isin one piece with the bar 47 and is oriented by spreading the rods 2apart, as in FIG. 5.

In FIG. 13, one of the ends of the bar 50 is in one piece with a hook 51similar to the hook 48, but oriented by moving the osteosynthesis rodscloser together, as illustrated in FIG. 6.

The bar 3, 45 . . . may have asperities on the surface (in the manner ofthe Cotrel rods in FIG. 5), or be ribbed, etc., above all if theosteosynthesis rod in smooth, and in view of improving the fixation ofthe hook on this bar (as shown in FIG. 15).

It is understood that the present invention contemplates variation inthe configuration of the elongated member (rod & transverse bar) and thehook. For example, the rod 2 and bar 3 may assume various cross-sectionshapes along their longitudinal length. The bar 3 may have a circularcross-section, for instance, which can be accommodated by acomplementary modification to the aperture 7.

It is further contemplated that under certain circumstances thearrangement of rod and bar relative to the hook 1 may be charged. Insuch a case, the rod 2 may extend through aperture 7 while the bar 3sits within region 13 of the hook, all portions of the hook beingsuitable configured.

FIGS. 14 and 15 show a bar 52 having an end portion 53 that iscylindrical and perpendicular to the axis of the bar 52. This endportion 53 can receive an anchorage member 54 such as a hook, asillustrated, or a screw attached to end portion 53 by a fixation screw56. The opposite end portion of bar 52 is attached to rod 2 by a hook 1as described above.

As previously mentioned, the bar 52 can be smooth or provided withsurface asperities such as ridges 55 on only one face (as shown) or onseveral faces to enhance fixation by hook 1. Additionally, bar 52 canhave a rectangular, circular or other cross-section.

What is claimed is:
 1. Fixing hook for interconnecting a rod of a spinalosteosynthesis system with a rigid transverse bar and for clamping therod against the bar, said fixing hook comprising:a body; a passagedefined in said body for receiving the bar, said passage having a heightat least equal to the thickness of the bar, extending throughout alength of said body, freely opening out at its ends and terminating atone end in an aperture defined in said body and having a heightexceeding the thickness of the bar; and a curved strip portion extendingfrom said body for receiving a rod therein, said aperture being providedin a connection region between said body and said curved strip portion;wherein said passage defines edge portions in said body so shaped as todefine ramps inclined toward said curved strip portion against which therod slides so as to facilitate putting the rod in position within saidcurved strip portion; further wherein said curved strip portion has afirst curved region having a first radius of curvature equal to theradius of curvature of the rod which is to bear therein, followed,toward a free end portion of said curved strip portion, by a secondregion which is raised in the direction toward said body and having adifferent second radius of curvature; and further wherein said secondradius of curvature has a center of curvature offset away from said bodytoward said curved strip portion relative to the center of curvature ofsaid first radius of curvature.
 2. Fixing hook for interconnecting a rodof a spinal osteosynthesis system with a rigid transverse bar and forclamping the rod against the bar, said fixing hook comprising:a body; apassage defined in said body for receiving the bar, said passage havinga height at least equal to the thickness of the bar, extendingthroughout a length of said body, freely opening out at its ends andterminating at one end in an aperture defined in said body and having aheight exceeding the thickness of the bar; and a curved strip portionextending from said body for receiving a rod therein, said aperturebeing provided in a connection region between said body and said curvedstrip portion; wherein said passage defined edge portions in said bodyso shaped as to define ramps inclined toward said curved strip portionagainst which the rod slides so as to facilitate putting the rod inposition within said curved strip portion; further wherein said curvedstrip portion has a first curved region having a first radius ofcurvature equal to the radius of curvature of the rod which is to beartherein, followed, toward a free end portion of said curved stripportion, by a second region which is raised in the direction toward saidbody and having a different second radius of curvature; and furtherwherein said second radius of curvature is smaller than said firstradius of curvature.
 3. Fixing hook for interconnecting a rod of aspinal osteosynthesis system with a rigid transverse bar and forclamping the rod against the bar, said fixing hook comprising:a body; apassage defined in said body for receiving the bar, said passage havinga height at least equal to the thickness of the bar, extendingthroughout a length of said body, freely opening out at its ends andterminating at one end in an aperture defined in said body and having aheight exceeding the thickness of the bar; and a curved strip portionextending from said body for receiving a rod therein, said aperturebeing provided in a connection region between said body and said curvedstrip portion; a tapped hole defined in said body which opens into saidpassage and is so positioned that an axis of said tapped hole is in thevicinity of a free end portion of said curved strip portion; a clampingscrew threadedly engaged in said tapped hole for clamping a bar in saidpassage on a rod received within said curved strip portion; and a secondtapped hole which is disposed between said tapped hole for receivingsaid clamping screw and said aperture for receiving a screw threaded endportion of an accessory for handling said hook.
 4. Hook according toclaim 3, further comprising a second clamping screw configured forthreaded engagement in said second tapped hole after removal of theaccessory.
 5. Fixing hook for interconnecting a rod of a spinalosteosynthesis system with a rigid transverse bar and for clamping therod against the bar, said fixing hook comprising:a body; a passagedefined in said body for receiving the bar, said passage having a heightat least equal to the thickness of the bar, extending throughout alength of said body, freely opening out at its ends and terminating atone end in an aperture defined in said body and having a heightexceeding the thickness of the bar; and a curved strip portion extendingfrom said body for receiving the rod therein, said aperture beingprovided in a connection region between said body and said curved stripportion; wherein said curved strip portion defines a curved innersurface and two planar ramps having different inclination extending fromsaid curved inner surface to a free end portion of said curved stripportion.
 6. Fixing hook for interconnecting a rod of a spinalosteosynthesis system with a rigid transverse bar and for clamping therod against the bar, said fixing hook comprising:a body; a passagedefined in said body for receiving the bar, said passage having a heightat least equal to the thickness of the bar, extending throughout alength of said body, freely opening out at its ends and terminating atone end in an aperture defined in said body and having a heightexceeding the thickness of the bar; a curved strip portion extendingfrom said body for receiving a rod therein, said aperture being providedin a connection region between said body and said curved strip portion;a tapped hole defined in said body which opens into said passage and isso positioned that an axis of said tapped hole is in the vicinity of afree end portion of said curved strip portion; and a clamping screwthreadedly engaged in said tapped hole for clamping the bar in saidpassage on the rod received within said curved strip portion; whereinsaid tapped hole and said clamping screw are so positioned in said bodythat the axis of said clamping screw is located between an axial planeof the rod parallel to the axis of said screw, and a plane tangent tothe surface of the rod located in said curved strip portion, parallel tothe axis of said screw and to said axial plane.
 7. Hook according toclaim 6, wherein said axis of said screw is located substantiallytwo-thirds of the distance between said axial plane and said tangentplane in measuring from said axial plane.
 8. Assembly for a spinalosteosynthesis system comprising:an elongated spinal rod; an elongatedtransverse bar; a hook including a body, a passage in said body forreceiving said bar, said passage having a height at least equal to athickness of said bar, extending throughout a length of said body,freely opening out at its ends and terminating at one end in an aperturewhich is arranged in said body and has a height exceeding said thicknessof said bar, said hook further including a tapped hole defined in saidbody, a curved strip portion extending from said body for retaining andclamping said rod, said aperture being provided in a connection regionbetween said body and said curved strip portion, said curved stripportion including two edges and a curved inner surface defined by saidedges, against which edges bears said rod, said curved strip portionincluding a free end portion defining a planar ramp terminating in oneof said edges; said bar including a cylindrical end portionperpendicular to a longitudinal axis of the bar, and a vertebralanchorage member mounted on said end portion, said vertebral anchoragemember configured for engagement with a portion of a vertebra.
 9. Atransverse connection device for cooperative interconnection of firstand second elongated members in a spinal osteosynthesis system,comprising:a body; a hook-shaped portion extending from said body andforming a curved portion configured for receiving the first elongatedmember therein; and a passage defined in said body and intersecting saidcurved portion of said hook-shaped portion, said passage configured toreceive the second elongate member therethrough and having a heightdimension at least equal to a thickness of the second elongate member,said height dimension increasing along the length of said passage,wherein said curved portion includes a first region having a firstradius of curvature and a second region having a different second radiusof curvature, said first region being disposed between said passage andsaid second region, and wherein said first radius of curvature isgreater than said second radius of curvature.
 10. A transverseconnection device for cooperative interconnection of first and secondelongated members in a spinal osteosynthesis system, comprising:a body;a hook-shaped portion extending from said body and forming a curvedportion configured for receiving the first elongated member therein; anda passage defined in said body and intersecting said curved portion ofsaid hook-shaped portion, said passage configured to receive the secondelongate member therethrough and having a height dimension at leastequal to a thickness of the second elongate member, said heightdimension increasing along the length of said passage, wherein saidcurved portion includes a first region having a first radius ofcurvature and a second region having a different second radius ofcurvature, said first region being disposed between said passage andsaid second region, and wherein said second radius of curvature has acenter of curvature offset away from said body toward said second regionrelative to the center of curvature of said first radius of curvature.